Abstract

A table screen 360-degree holographic display is proposed, with an increased screen size, having an expanded viewing zone over all horizontal directions around the table screen. It consists of a microelectromechanical systems spatial light modulator (MEMS SLM), a magnifying imaging system, and a rotating screen. The MEMS SLM generates hologram patterns at a high frame rate, the magnifying imaging system increases the screen of the MEMS SLM, and the reduced viewing zones are scanned circularly by the rotating screen. The viewing zones are localized to practically realize wavefront reconstruction. An experimental system has been constructed. The generation of 360-degree three-dimensional (3D) images was achieved by scanning 800 reduced and localized viewing zones circularly. The table screen had a diameter of 100 mm, and the frame rate of 3D image generation was 28.4 Hz.

© 2015 Optical Society of America

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References

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2014 (2)

2012 (4)

2011 (1)

2010 (2)

Y. Takaki, M. Yokouchi, and N. Okada, “Improvement of grayscale representation of the horizontally scanning holographic display,” Opt. Express 18(24), 24926–24936 (2010).
[Crossref] [PubMed]

F. Yaraş, H. Kang, and L. Onural, “State of the art in holographic displays: a survey,” J. Disp. Technol. 6(10), 443–454 (2010).
[Crossref]

2009 (2)

2008 (3)

D. M. Hoffman, A. R. Girshick, K. Akeley, and M. S. Banks, “Vergence-accommodation conflicts hinder visual performance and cause visual fatigue,” J. Vis. 8(3), 1–30 (2008).
[Crossref] [PubMed]

J. Hahn, H. Kim, Y. Lim, G. Park, and B. Lee, “Wide viewing angle dynamic holographic stereogram with a curved array of spatial light modulators,” Opt. Express 16(16), 12372–12386 (2008).
[PubMed]

R. Häussler, A. Schwerdtner, and N. Leister, “Large holographic displays as an alternative to stereoscopic displays,” Proc. SPIE 6803, 68030M (2008).
[Crossref]

1999 (1)

1996 (1)

K. Maeno, N. Fukaya, O. Nishikawa, K. Sato, and T. Honda, “Electro-holographic display using 15 mega pixels LCD,” Proc. SPIE 2652, 15–23 (1996).
[Crossref]

1992 (1)

Akeley, K.

D. M. Hoffman, A. R. Girshick, K. Akeley, and M. S. Banks, “Vergence-accommodation conflicts hinder visual performance and cause visual fatigue,” J. Vis. 8(3), 1–30 (2008).
[Crossref] [PubMed]

Banks, M. S.

D. M. Hoffman, A. R. Girshick, K. Akeley, and M. S. Banks, “Vergence-accommodation conflicts hinder visual performance and cause visual fatigue,” J. Vis. 8(3), 1–30 (2008).
[Crossref] [PubMed]

Barada, D.

Benton, S. A.

Fujii, K.

Fukaya, N.

K. Maeno, N. Fukaya, O. Nishikawa, K. Sato, and T. Honda, “Electro-holographic display using 15 mega pixels LCD,” Proc. SPIE 2652, 15–23 (1996).
[Crossref]

Girshick, A. R.

D. M. Hoffman, A. R. Girshick, K. Akeley, and M. S. Banks, “Vergence-accommodation conflicts hinder visual performance and cause visual fatigue,” J. Vis. 8(3), 1–30 (2008).
[Crossref] [PubMed]

Hahn, J.

Häussler, R.

R. Häussler, A. Schwerdtner, and N. Leister, “Large holographic displays as an alternative to stereoscopic displays,” Proc. SPIE 6803, 68030M (2008).
[Crossref]

Hoffman, D. M.

D. M. Hoffman, A. R. Girshick, K. Akeley, and M. S. Banks, “Vergence-accommodation conflicts hinder visual performance and cause visual fatigue,” J. Vis. 8(3), 1–30 (2008).
[Crossref] [PubMed]

Honda, T.

K. Maeno, N. Fukaya, O. Nishikawa, K. Sato, and T. Honda, “Electro-holographic display using 15 mega pixels LCD,” Proc. SPIE 2652, 15–23 (1996).
[Crossref]

Ichihashi, Y.

Kang, H.

F. Yaraş, H. Kang, and L. Onural, “Circular holographic video display system,” Opt. Express 19(10), 9147–9156 (2011).
[Crossref] [PubMed]

F. Yaraş, H. Kang, and L. Onural, “State of the art in holographic displays: a survey,” J. Disp. Technol. 6(10), 443–454 (2010).
[Crossref]

Kim, H.

Kurita, T.

Lee, B.

Leister, N.

R. Häussler, A. Schwerdtner, and N. Leister, “Large holographic displays as an alternative to stereoscopic displays,” Proc. SPIE 6803, 68030M (2008).
[Crossref]

Lim, Y.

Liu, L.

D. Teng, L. Liu, Z. Wang, B. Sun, and B. Wang, “All-around holographic three-dimensional light field display,” Opt. Commun. 285(21–22), 4235–4240 (2012).
[Crossref]

Lucente, M.

Maeno, K.

K. Maeno, N. Fukaya, O. Nishikawa, K. Sato, and T. Honda, “Electro-holographic display using 15 mega pixels LCD,” Proc. SPIE 2652, 15–23 (1996).
[Crossref]

Mishina, T.

Nishikawa, O.

K. Maeno, N. Fukaya, O. Nishikawa, K. Sato, and T. Honda, “Electro-holographic display using 15 mega pixels LCD,” Proc. SPIE 2652, 15–23 (1996).
[Crossref]

Oi, R.

Okada, N.

Okano, F.

Onural, L.

F. Yaraş, H. Kang, and L. Onural, “Circular holographic video display system,” Opt. Express 19(10), 9147–9156 (2011).
[Crossref] [PubMed]

F. Yaraş, H. Kang, and L. Onural, “State of the art in holographic displays: a survey,” J. Disp. Technol. 6(10), 443–454 (2010).
[Crossref]

Park, G.

Sando, Y.

Sato, K.

K. Maeno, N. Fukaya, O. Nishikawa, K. Sato, and T. Honda, “Electro-holographic display using 15 mega pixels LCD,” Proc. SPIE 2652, 15–23 (1996).
[Crossref]

Schwerdtner, A.

R. Häussler, A. Schwerdtner, and N. Leister, “Large holographic displays as an alternative to stereoscopic displays,” Proc. SPIE 6803, 68030M (2008).
[Crossref]

Senoh, T.

St. Hilaire, P.

Sun, B.

D. Teng, L. Liu, Z. Wang, B. Sun, and B. Wang, “All-around holographic three-dimensional light field display,” Opt. Commun. 285(21–22), 4235–4240 (2012).
[Crossref]

Takaki, Y.

Tanemoto, Y.

Teng, D.

D. Teng, L. Liu, Z. Wang, B. Sun, and B. Wang, “All-around holographic three-dimensional light field display,” Opt. Commun. 285(21–22), 4235–4240 (2012).
[Crossref]

Uchida, S.

Wang, B.

D. Teng, L. Liu, Z. Wang, B. Sun, and B. Wang, “All-around holographic three-dimensional light field display,” Opt. Commun. 285(21–22), 4235–4240 (2012).
[Crossref]

Wang, Z.

D. Teng, L. Liu, Z. Wang, B. Sun, and B. Wang, “All-around holographic three-dimensional light field display,” Opt. Commun. 285(21–22), 4235–4240 (2012).
[Crossref]

Yamamoto, K.

Yaras, F.

F. Yaraş, H. Kang, and L. Onural, “Circular holographic video display system,” Opt. Express 19(10), 9147–9156 (2011).
[Crossref] [PubMed]

F. Yaraş, H. Kang, and L. Onural, “State of the art in holographic displays: a survey,” J. Disp. Technol. 6(10), 443–454 (2010).
[Crossref]

Yatagai, T.

Yokouchi, M.

Yuyama, I.

Appl. Opt. (3)

J. Disp. Technol. (1)

F. Yaraş, H. Kang, and L. Onural, “State of the art in holographic displays: a survey,” J. Disp. Technol. 6(10), 443–454 (2010).
[Crossref]

J. Opt. Soc. Am. A (1)

J. Vis. (1)

D. M. Hoffman, A. R. Girshick, K. Akeley, and M. S. Banks, “Vergence-accommodation conflicts hinder visual performance and cause visual fatigue,” J. Vis. 8(3), 1–30 (2008).
[Crossref] [PubMed]

Opt. Commun. (1)

D. Teng, L. Liu, Z. Wang, B. Sun, and B. Wang, “All-around holographic three-dimensional light field display,” Opt. Commun. 285(21–22), 4235–4240 (2012).
[Crossref]

Opt. Express (7)

Opt. Lett. (1)

Proc. SPIE (2)

K. Maeno, N. Fukaya, O. Nishikawa, K. Sato, and T. Honda, “Electro-holographic display using 15 mega pixels LCD,” Proc. SPIE 2652, 15–23 (1996).
[Crossref]

R. Häussler, A. Schwerdtner, and N. Leister, “Large holographic displays as an alternative to stereoscopic displays,” Proc. SPIE 6803, 68030M (2008).
[Crossref]

Other (2)

H. E. Kim, M. Park, K. Moon, and J. W. Kim, “Table- top three-dimensional holographic display using ellipsoid mirror,” in Proceedings of 3DSA 2014 Korea (3DSA, 2014), pp. 4–15.

A. Schwerdtner, N. Leister, and R. Häussler, “A new approach to electro-holography for TV and projection displays,” in SID 2007 International Symposium, Digest of Technical Papers, 1224–1227 (2007).
[Crossref]

Supplementary Material (2)

» Media 1: MP4 (6714 KB)     
» Media 2: MP4 (3966 KB)     

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Figures (9)

Fig. 1
Fig. 1 Schematic diagram of the proposed table screen 360-degree holographic display.
Fig. 2
Fig. 2 Magnifying imaging system generating a localized viewing zone.
Fig. 3
Fig. 3 Circular scan of a localized viewing zone using an off-axis screen lens.
Fig. 4
Fig. 4 Arrangement of localized viewing zones on a circle.
Fig. 5
Fig. 5 Display area of 3D images.
Fig. 6
Fig. 6 Reflective rotating screen: (a) structure and (b) off-axis Fresnel lens.
Fig. 7
Fig. 7 Photographs of experimental system: (a) total system, (b) projection part, and (c) rotating screen part.
Fig. 8
Fig. 8 Graphs of the intensity distributions of localized viewing zones along horizontal direction, as shown in Fig. 8: (a) 0°, (b) 90°, (c) 180°, and (d) 270° (indicated in Fig. 4).
Fig. 9
Fig. 9 Generated 360-degree holographic images; photographs were captured from four different directions, as indicated in Fig. 4: (a) symbols (Media 1) and (b) two planes (Media 2).

Equations (4)

Equations on this page are rendered with MathJax. Learn more.

L× λl / ( 2Mp ) 2πR.
O( x,y )= i=1 N A i expi( 2π/λ ) ( x X i ) 2 + ( y Y i ) 2 + Z i 2 i=1 N C A i i exp{ i( π/λ Z i )[ ( x X i ) 2 + ( y Y i ) 2 ] },
O p ( x,y )=exp[ i( 2π/λ ) ( x x v ) 2 + ( y y v ) 2 + z v 2 ]O( x,y ) i=1 N C i A i exp{ i( π/λ Z i )[ ( x X i ) 2 + ( y Y i ) 2 ] }.
{ X i =( X i / Z i x v / z v )/( 1/ Z i 1/ z v ), Y i =( Y i / Z i y v / z v )/( 1/ Z i 1/ z v ), Z i = ( 1/ Z i 1/ z v ) 1 ,

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